// Copyright 2015 Matthew Holt and The Caddy Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package caddyhttp import ( "bufio" "bytes" "fmt" "io" "net" "net/http" ) // ResponseWriterWrapper wraps an underlying ResponseWriter and // promotes its Pusher method as well. To use this type, embed // a pointer to it within your own struct type that implements // the http.ResponseWriter interface, then call methods on the // embedded value. type ResponseWriterWrapper struct { http.ResponseWriter } // Push implements http.Pusher. It simply calls the underlying // ResponseWriter's Push method if there is one, or returns // ErrNotImplemented otherwise. func (rww *ResponseWriterWrapper) Push(target string, opts *http.PushOptions) error { if pusher, ok := rww.ResponseWriter.(http.Pusher); ok { return pusher.Push(target, opts) } return ErrNotImplemented } // ReadFrom implements io.ReaderFrom. It simply calls io.Copy, // which uses io.ReaderFrom if available. func (rww *ResponseWriterWrapper) ReadFrom(r io.Reader) (n int64, err error) { return io.Copy(rww.ResponseWriter, r) } // Unwrap returns the underlying ResponseWriter, necessary for // http.ResponseController to work correctly. func (rww *ResponseWriterWrapper) Unwrap() http.ResponseWriter { return rww.ResponseWriter } // ErrNotImplemented is returned when an underlying // ResponseWriter does not implement the required method. var ErrNotImplemented = fmt.Errorf("method not implemented") type responseRecorder struct { *ResponseWriterWrapper statusCode int buf *bytes.Buffer shouldBuffer ShouldBufferFunc size int wroteHeader bool stream bool readSize *int } // NewResponseRecorder returns a new ResponseRecorder that can be // used instead of a standard http.ResponseWriter. The recorder is // useful for middlewares which need to buffer a response and // potentially process its entire body before actually writing the // response to the underlying writer. Of course, buffering the entire // body has a memory overhead, but sometimes there is no way to avoid // buffering the whole response, hence the existence of this type. // Still, if at all practical, handlers should strive to stream // responses by wrapping Write and WriteHeader methods instead of // buffering whole response bodies. // // Buffering is actually optional. The shouldBuffer function will // be called just before the headers are written. If it returns // true, the headers and body will be buffered by this recorder // and not written to the underlying writer; if false, the headers // will be written immediately and the body will be streamed out // directly to the underlying writer. If shouldBuffer is nil, // the response will never be buffered and will always be streamed // directly to the writer. // // You can know if shouldBuffer returned true by calling Buffered(). // // The provided buffer buf should be obtained from a pool for best // performance (see the sync.Pool type). // // Proper usage of a recorder looks like this: // // rec := caddyhttp.NewResponseRecorder(w, buf, shouldBuffer) // err := next.ServeHTTP(rec, req) // if err != nil { // return err // } // if !rec.Buffered() { // return nil // } // // process the buffered response here // // The header map is not buffered; i.e. the ResponseRecorder's Header() // method returns the same header map of the underlying ResponseWriter. // This is a crucial design decision to allow HTTP trailers to be // flushed properly (https://github.com/caddyserver/caddy/issues/3236). // // Once you are ready to write the response, there are two ways you can // do it. The easier way is to have the recorder do it: // // rec.WriteResponse() // // This writes the recorded response headers as well as the buffered body. // Or, you may wish to do it yourself, especially if you manipulated the // buffered body. First you will need to write the headers with the // recorded status code, then write the body (this example writes the // recorder's body buffer, but you might have your own body to write // instead): // // w.WriteHeader(rec.Status()) // io.Copy(w, rec.Buffer()) // // As a special case, 1xx responses are not buffered nor recorded // because they are not the final response; they are passed through // directly to the underlying ResponseWriter. func NewResponseRecorder(w http.ResponseWriter, buf *bytes.Buffer, shouldBuffer ShouldBufferFunc) ResponseRecorder { return &responseRecorder{ ResponseWriterWrapper: &ResponseWriterWrapper{ResponseWriter: w}, buf: buf, shouldBuffer: shouldBuffer, } } // WriteHeader writes the headers with statusCode to the wrapped // ResponseWriter unless the response is to be buffered instead. // 1xx responses are never buffered. func (rr *responseRecorder) WriteHeader(statusCode int) { if rr.wroteHeader { return } // save statusCode always, in case HTTP middleware upgrades websocket // connections by manually setting headers and writing status 101 rr.statusCode = statusCode // 1xx responses aren't final; just informational if statusCode < 100 || statusCode > 199 { rr.wroteHeader = true // decide whether we should buffer the response if rr.shouldBuffer == nil { rr.stream = true } else { rr.stream = !rr.shouldBuffer(rr.statusCode, rr.ResponseWriterWrapper.Header()) } } // if informational or not buffered, immediately write header if rr.stream || (100 <= statusCode && statusCode <= 199) { rr.ResponseWriterWrapper.WriteHeader(statusCode) } } func (rr *responseRecorder) Write(data []byte) (int, error) { rr.WriteHeader(http.StatusOK) var n int var err error if rr.stream { n, err = rr.ResponseWriterWrapper.Write(data) } else { n, err = rr.buf.Write(data) } rr.size += n return n, err } func (rr *responseRecorder) ReadFrom(r io.Reader) (int64, error) { rr.WriteHeader(http.StatusOK) var n int64 var err error if rr.stream { n, err = rr.ResponseWriterWrapper.ReadFrom(r) } else { n, err = rr.buf.ReadFrom(r) } rr.size += int(n) return n, err } // Status returns the status code that was written, if any. func (rr *responseRecorder) Status() int { return rr.statusCode } // Size returns the number of bytes written, // not including the response headers. func (rr *responseRecorder) Size() int { return rr.size } // Buffer returns the body buffer that rr was created with. // You should still have your original pointer, though. func (rr *responseRecorder) Buffer() *bytes.Buffer { return rr.buf } // Buffered returns whether rr has decided to buffer the response. func (rr *responseRecorder) Buffered() bool { return !rr.stream } func (rr *responseRecorder) WriteResponse() error { if rr.stream { return nil } if rr.statusCode == 0 { // could happen if no handlers actually wrote anything, // and this prevents a panic; status must be > 0 rr.statusCode = http.StatusOK } rr.ResponseWriterWrapper.WriteHeader(rr.statusCode) _, err := io.Copy(rr.ResponseWriterWrapper, rr.buf) return err } // FlushError will suppress actual flushing if the response is buffered. See: // https://github.com/caddyserver/caddy/issues/6144 func (rr *responseRecorder) FlushError() error { if rr.stream { //nolint:bodyclose return http.NewResponseController(rr.ResponseWriterWrapper).Flush() } return nil } // Private interface so it can only be used in this package // #TODO: maybe export it later func (rr *responseRecorder) setReadSize(size *int) { rr.readSize = size } func (rr *responseRecorder) Hijack() (net.Conn, *bufio.ReadWriter, error) { //nolint:bodyclose conn, brw, err := http.NewResponseController(rr.ResponseWriterWrapper).Hijack() if err != nil { return nil, nil, err } // Per http documentation, returned bufio.Writer is empty, but bufio.Read maybe not conn = &hijackedConn{conn, rr} brw.Writer.Reset(conn) buffered := brw.Reader.Buffered() if buffered != 0 { conn.(*hijackedConn).updateReadSize(buffered) data, _ := brw.Peek(buffered) brw.Reader.Reset(io.MultiReader(bytes.NewReader(data), conn)) } else { brw.Reader.Reset(conn) } return conn, brw, nil } // used to track the size of hijacked response writers type hijackedConn struct { net.Conn rr *responseRecorder } func (hc *hijackedConn) updateReadSize(n int) { if hc.rr.readSize != nil { *hc.rr.readSize += n } } func (hc *hijackedConn) Read(p []byte) (int, error) { n, err := hc.Conn.Read(p) hc.updateReadSize(n) return n, err } func (hc *hijackedConn) WriteTo(w io.Writer) (int64, error) { n, err := io.Copy(w, hc.Conn) hc.updateReadSize(int(n)) return n, err } func (hc *hijackedConn) Write(p []byte) (int, error) { n, err := hc.Conn.Write(p) hc.rr.size += n return n, err } func (hc *hijackedConn) ReadFrom(r io.Reader) (int64, error) { n, err := io.Copy(hc.Conn, r) hc.rr.size += int(n) return n, err } // ResponseRecorder is a http.ResponseWriter that records // responses instead of writing them to the client. See // docs for NewResponseRecorder for proper usage. type ResponseRecorder interface { http.ResponseWriter Status() int Buffer() *bytes.Buffer Buffered() bool Size() int WriteResponse() error } // ShouldBufferFunc is a function that returns true if the // response should be buffered, given the pending HTTP status // code and response headers. type ShouldBufferFunc func(status int, header http.Header) bool // Interface guards var ( _ http.ResponseWriter = (*ResponseWriterWrapper)(nil) _ ResponseRecorder = (*responseRecorder)(nil) // Implementing ReaderFrom can be such a significant // optimization that it should probably be required! // see PR #5022 (25%-50% speedup) _ io.ReaderFrom = (*ResponseWriterWrapper)(nil) _ io.ReaderFrom = (*responseRecorder)(nil) _ io.ReaderFrom = (*hijackedConn)(nil) _ io.WriterTo = (*hijackedConn)(nil) )